Interdisciplinary Consortium on Advanced Motion Performance

Wearable Technologies

Various wearable technologies are available at iCAMP for motion tracking and outcomes research studies.

Biomechanics and Motion Monitoring Devices

Using state-of-the-art wearable technologies from computerized pressure insoles to smart shirt, smart socks, and pendant technologies, the iCAMP team explores how people move through the world to better evaluate risk factors, health status, and outcomes post intervention.

Smart Textile

iCAMP team continues in designing smart textile from socks to carpet, which could better track risk factors such as diabetic foot ulcers, falls, and overall health.

Early Identification of At-Risk Patients

Using state-of-the-art technologies from thermal imaging to advance Doppler systems, iCAMP team designed innovative approach to identify patients at risk for diabetic foot ulcers earlier than previously possible.

Interdisciplinary Consortium on Advanced Motion Performance

Led by Bijan Najafi, Ph.D., iCAMP is an interdisciplinary research and development collaboration that engages creative teams from vascular surgery, orthopedics, podiatry, nursing, geriatrics, and engineering at Baylor College of Medicine.

iCAMP aims to improve stability, healing and mobility, worldwide. This is especially important for patients suffering from diabetes, which impacts more than one in four older adults in the United States. We have been developing the first of their kind "smart" wearable technologies that have shown enormous promise in identifying and preventing limb and life threatening gangrene as well as providing early-warnings to prevent life-threatening falls and fractures in older adults. These "game changing" technologies are actually "game-based" in that they allow the wearers to improve their stability and mobility through novel video-game-like therapies. In addition to our local research initiatives, we partner with a host of businesses, analysts, and research teams worldwide to foster advances in the field of motion performance.

Our unique expertise is the translation of wearable and smart technologies - from jewelry to socks - for more accurate movement assessment of patients in their natural environment where they're the most comfortable and active. Our goal is to better understand how people move through and interact with their environment. In this way, we believe we may be able to fundamentally change the way we objectively measure quality of life for people across disciplines.